A255366 - OEIS

A255366

Total number of ON cells at stage n of two-dimensional cellular automaton defined by the rules of the "Ulam-Warburton" two-dimensional cellular automaton (A147562) for two of its wedges and defined by "Rule 750" using the von Neumann neighborhood (A169707) for the two other wedges.

1, 5, 9, 21, 25, 37, 53, 85, 89, 101, 117, 149, 165, 205, 257, 341, 345, 357, 373, 405, 421, 461, 513, 597, 613, 653, 705, 797, 857, 989, 1141, 1365, 1369, 1381, 1397, 1429, 1445, 1485, 1537, 1621, 1637, 1677, 1729, 1821, 1881, 2013, 2165, 2389, 2405, 2445, 2497

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OFFSET

1,2

COMMENTS

First differs from A162795 at a(14), but it appears that then they share infinitely many terms. It appears that this is very close to A162795 rather than both A147562 and A169707.

The graphs of both A162795 and this sequence are intertwined.

Note that there are four main versions of this cellular automaton, depending on whether the wedges with the same rule are opposite or perpendicular and also depending on whether each mentioned version is represented by the "one-step rook" illustration or by the "one-step bishop" illustration. The four versions are represented by this sequence.

a(43) = 1729 is also the Hardy-Ramanujan number.

LINKS

Table of n, a(n) for n=1..51.

N. J. A. Sloane, Catalog of Toothpick and Cellular Automata Sequences in the OEIS

Index entries for sequences related to cellular automata

FORMULA

a(n) = (A147562(n) + A169707(n))/2.

It appears that a(n) = A147562(n) = A162795(n) = A169709(n), if n is a member of A048645, or in other words: if the binary weight of n is 1 or 2, but note that a(n) = A162795(n) for many other values of n.

EXAMPLE

a(43) = (1705 + 1753)/2 = 3458/2 = 1729.

CROSSREFS

Cf. A001235, A048645, A139250, A147562, A160164, A162795, A169707.

Sequence in context: A299776 A147562 A162795 * A269522 A169707 A256260

Adjacent sequences: A255363 A255364 A255365 * A255367 A255368 A255369

KEYWORD

nonn,look

AUTHOR

Omar E. Pol, Feb 21 2015

STATUS

approved